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Tag: Components

In Open Event Frontend, new contributors always fall into a dilemma of identifying the proper files where they have to make changes if they want to contribute. The project structure is quite complex and which is obvious because it is a large project. So, in this blog, we will walk through the structure of Open Event Frontend.

Following are the different folders of the project explained:

Root:
The root of the project contains folders like app, config, kubernetes, tests, scripts. Our main project is in the app folder where all the files are present. The config folder in the root has files related to the deployment of the app in development, production, etc. It also has the environment setup such as host, api keys, etc. Other files such as package.json, bower.json, etc are basically to store the current versions of the packages and to ease the installation of the project.

App:
The app folder has all the files and is mainly classified into the following folder:
adapters
components
controllers
helpers
Initializers
mixins
models
routes
serializers
services
styles
templates
transforms
utils

The folders with their significance are listed below:

Adapters: This folder contains the files for building URLs for our endpoints. Sometimes it happens to have a somewhat customised URL for an endpoint which we pass through adapter to modify it.
Components: This folder contains different components which we reuse in our app. For example, the image uploader component can be used at multiple places in our app, so we keep such elements in our components. This folder basically contains the js files of all the components(since when we generate a component, a js file and a hbs template is generated).
Controllers: This folder contains the controller associated with each route. Since the main principle of ember js is DDAU i.e data down actions up, all the actions are written in the files of this folder.
Helpers: Many a time it happens that, we want to format date, time, encode URL etc. There are some predefined helpers but sometimes custom helpers are also needed. All of them have been written in helpers folder.
Initializers: This folder has a file for now called ‘blanket.js’ which basically injects the services into our routes, components. So if you want to write any service and want to inject it into routes/components, it should go in here.
Mixins: In EmberJS the Mixin class can create objects whose properties and functions can be shared amongst other classes and instances. This allows for an easy way to share behavior between objects as well as design objects that may need multiple inheritance. All of them used for the application are in the mixins folder.
Models: This folder contains the schema’s for our data. Since we are using ember data, we need to have proper skeleton of the data. All of this goes it this folder. Observing this folder will show you some models like user, event, etc.
Routes: This folder contains the js files of the routes created. Routes handle which template to render and what to return from the model, etc.
Serializers: We use serializers to modify the data that ember sends automatically in a request. Consider we want to get a user with the help of user model, and don’t want to get the password attribute present in it. We can thus omit that by defining it in a serializer.
Services: Services are the ember objects which are available throughout the running time of the application. These are used to perform tasks like getting current user model, making third party API calls etc. All such services go in this folder.
Styles: As the name infers, all the style sheets go in here.
Templates: A template is generated with generation of each route and component. All of them go here. Thus, the markup will be written over here.
Transforms: Ember Data has a feature called transforms that allow you to transform values before they are set on a model or sent back to the server. In our case, we have a transform called moment.
Utils: This folder contains some functions exported as modules which are reusable. There is some JSON data as well.

In Loklak Search the post items contain links, which are either internal or external. These links include the hashtags, mentions, and URLs. From the backend server we just received the message in the plain text format, and thus there is need to parse the plain text and render it as clickable links. These clickable links can be either internal or external. Thus we need an auto-linker component, which takes the text and render it as links.

The API of the Component

The component takes as the input the plain text, then four arrays of strings. Each containing the text to be linked. These are hashtags, mentions, links and the unshorten attribute which is used to unshorten the shortened URLs in the post. These attributes are used by the component to render the text in the appropriate format.

The next part of the logic is to generate the shard array, an array which contains each chunk, once. To do this we iterate over the Sorted Indexed array created in the previous step and use it split the text into chunks. We iterate over the text and take substrings using the indexes of each element.

A major problem in Susper was that we were using the same components on different pages, with different styling properties. A major issue was that the Autocomplete box was not properly aligned in the index page and looked like this:This was happening because the autocomplete box width was set for 634 px, a width perfect for the search bar in the results page. The index page had a search bar of width 534 px, and the autocomplete box was too large for that.Here is how the issue was solved:

The code uses *ngIf which is why setting the autocomplete box width using the typescript files becomes impossible. *ngIf does not load the component into the DOM until there are results, hence we didnot have the autocomplete box in the DOM until after the query was typed in the search bar. That was why we could not set its width, hence it was decided to remove this attribute. Using the ‘hidecomponent emitter’ is a better option here (used in the typescript file).

Susper gives answers to your questions using SUSI AI. We want to give users best experience while they are searching for solutions to their questions. To achieve this, we have incorporated with features like infobox and intelligence using SUSI.

Google has this feature where users can ask questions like ‘Who is president of USA?’ and get answers directly without encouraging the users to deep-dive into the search results to know the answer.

Similarly Susper gives answer to the user:

It also gives answer to question which is related to real time data like temperature.

Whenever the getintelligenceresponse of intelligenceService is called, it creates a URLSearchParams() object and set required parameters in it and send them in jsonp.get request. We also set callback to ‘JSONP_CALLBACK’ to inform the API to send us data in JSONP.

Thereby, the intelligence component retrieves the answer and displays it with search resultson Susper.